Description
Signal Blocker Fabric is a high-performance electromagnetic shielding textile designed to block or reduce medium and high-frequency electromagnetic signals. With a width of 105cm, this fabric combines 62% polyester, 29% copper, and 9% nickel to provide effective RFID, WiFi, EMF, and radiation protection. It is engineered for both personal and industrial applications where electromagnetic interference (EMI) shielding is essential.
Lightweight yet durable, this fabric can be used to protect sensitive electronics, reduce exposure to electromagnetic fields, or create protective accessories such as wallets and passport covers.
Fabric Specs
| Width | 105cm |
| Composition | 62% Polyester, 29% Copper, 9% Nickel |
| Thickness | 0.08 +/- 0.005 mm |
| Density | 230 +/- 10 g/m² |
| Weight | 80 +/- 5 g/m² |
| Testing Standards | GB/T3820-1997, GB/T4743-2009, GB/4667-1995, GB/T4669-1995 |
Uses
Signal Blocker Fabric is ideal for:
- Electromagnetic shielding for sensitive equipment
- RFID protection wallets and card holders
- Anti-theft passport covers and outdoor pockets
- Shielding screens and tents
- Anti-radiation wallpapers and protective curtains
- Industrial high-frequency furnaces and medical equipment EMI shielding
This fabric provides reliable EMI, RFID, and WiFi signal blocking while remaining lightweight, flexible, and easy to handle for various applications.
FAQs
What is the width of this fabric?
The fabric is 105cm wide.
What materials make up the fabric?
It is composed of 62% polyester, 29% copper, and 9% nickel.
What is the thickness and weight?
The thickness is 0.08 +/- 0.005 mm and the weight is 80 +/- 5 g/m².
What are the main applications?
It is used for electromagnetic shielding, RFID blocking wallets, protective covers, industrial EMI protection, and anti-radiation applications.
Is it durable and flexible?
Yes, the fabric is lightweight, flexible, and durable, suitable for both personal and industrial uses.
Which standards does it comply with?
Testing standards include GB/T3820-1997, GB/T4743-2009, GB/4667-1995, GB/T4669-1995.
